Trophic ecology of syntopic anuran larvae, Rhinella arenarum (Anura: Bufonidae) and Hypsiboas cordobae (Anura: Hylidae): its relation to the structure of periphyton

Free Access

Issue		Ann. Limnol. - Int. J. Lim. Volume 51, Number 3, 2015


Page(s)		211 - 217
DOI		https://doi.org/10.1051/limn/2015015
Published online		13 August 2015

Altig R. and Johnston G.F., 1989. Guilds of anuran larvae: relationships among developmental modes, morphologies and habitats. Herpetol. Monogr., 3, 81–109. [CrossRef] [Google Scholar]
Altig R., Whiles M.R. and Taylor C.L., 2007. What do tadpoles really eat? Assessing the trophic status of an understudied and imperiled group of consumers in freshwater habitats. Freshwater Biol., 52, 386–395. [CrossRef] [Google Scholar]
Arana M., Salas N., Correa A. and di Tada I., 2003. Dieta de la larva de Hyla pulchella cordobae BARRIO, 1965 (Anura: Hylidae) en Pampa de Achala Córdoba Argentina. Bol. Asoc. Herpetol. Esp., 14, 1–2. [Google Scholar]
Arana M., Correa A., Salas N. and di Tada I., 2005. Dieta de larvas de Melanophryniscus stelzneri stelzneri (WEYENBERGH, 1874) (Anura, Bufonidae) de Atos Pampa, provincia de Córdoba, Argentina. Bol. Asoc. Herpetol. Esp., 15, 109–110. [Google Scholar]
Baffico G.D. and Úbeda C.A., 2006. Larval diet of the frog Alsodes gargola (Leptodactylidae: Telmatobiinae) and some ecological considerations on its role in alpine and mountain aquatic environments in Patagonia. Amphibia-Reptilia., 27, 161–168. [CrossRef] [Google Scholar]
Baraquet M., Salas N.E. and Martino A.L., 2013. Advertisement calls and interspecific variation in Hypsiboas cordobae and Hypsiboas pulchellus (Anura, Hylidae) from central Argentina. Acta Zool. Bulg., 65, 479–486. [Google Scholar]
Baraquet M., Grenat P.R., Salas N.E. and Martino A.L., 2015. Geographic variation in the advertisement call of Hypsiboas cordobae (Anura, Hylidae). Acta Ethol., 18, 79–86. [CrossRef] [Google Scholar]
Bionda C., Gari N., Luque E., Salas N., Lajmanovich R., Martino A., 2012. Ecología trófica en larvas de Rhinella arenarum (Anura: Rhinellanidae) en agroecosistemas y sus posibles implicaciones para la conservación. Rev. Biol. Trop., 60, 771–779. [PubMed] [Google Scholar]
Bionda C., Luque E., Gari N., Salas N.E., Lajmanovich R.C. and Martino A.L., 2013. Diet of tadpoles of Physalaemus biligonigerus (Leiuperidae) from agricultural ponds in the central region of Argentina. Acta Herpetologica, 8, 141–146. [Google Scholar]
Blanco S., Ector L. and Becares E., 2004. Epiphytic Diatoms as water quality indicators in Spanish shallow lakes. Vie Milieu., 54, 71–79. [Google Scholar]
Cei J.M., 1980. Amphibians of Argentina, Monit, Zool. Ital. Monogr. 2, Nuova Serie, Firenze, Italy. [Google Scholar]
Colwell R.K., 1997. EstimateS: Statistical estimation of species richness and shared species from samples. Version 5. [Google Scholar]
Coniglio J., D'eramo F.J., Pinotti L.P., Demartis M., Agulleiro Insúa L.A. and Petrelli H.A., 2010. Control estructural de las mineralizaciones de fluorita del batolito Cerro Áspero, sierras pampeanas de Córdoba. Rev. Asoc. Geol. Argent., 67, 507–520. [Google Scholar]
Connelly S., Pringle C.M., Bixby R.J., Brenes R., Whiles M.R., Lips K.R., Kilham S. and Huryn A.D., 2008. Changes in stream primary producer communities resulting from large-scale catastrophic amphibian declines: can small-scale experiments predict effects of tadpole loss? Ecosystems, 11, 1262–1276. [CrossRef] [Google Scholar]
Connelly S., Pringle C.M., Barnum T., Hunte-Brown M., Kilham S., Whiles M.R., Lips K.R., Colón-Gaud C. and Brenes R., 2014. Initial versus longer-term effects of tadpole declines on algae in a Neotropical stream. Freshwater Biol., 59, 1113–1122. [CrossRef] [Google Scholar]
Díaz Quiros C. and Rivera Rondón C.A., 2004. Diatomeas de pequeños ríos andinos y su utilización como indicadoras de condiciones ambientales. Caldasia, 26, 381–394. [Google Scholar]
Di Rienzo J.A., Casanoves F., Balzarini M.G., Gonzalez L., Tablada M. and Robledo C.W., 2012. InfoStat versión 2012, Grupo InfoStat, FCA, Universidad Nacional de Córdoba, Argentina. [Google Scholar]
Do Prado V.H.M., Fonseca M.G., de Almeida F.V.R., Neechi O. Jr. and Rossa-Feres D.C., 2009. Niche occupancy and the relative role of micro-habitat and diet in resource partitioning among pond dwelling tadpoles. S. Am. J. Herpetol., 4, 275–285. [CrossRef] [Google Scholar]
Duellman W.E., Trueb L., 1986. Biology of Amphibians, Mc Graw-Hill Inc., USA. [Google Scholar]
Echeverría D.D., Volpedo A.V. and Mascitti V.I., 2007. Diet of tadpoles from a pond in Iguazú National Park, Argentina. Gayana, 71, 8–14. [Google Scholar]
Fabrizi L., 2010. Eutrophication of water bodies introduction, Lenntech, Water treatment solutions, Accessed online 12 August 2014, http://www.lenntech.com/espanol/Eutroficacion-de-las-aguas/introduccion.htm. [Google Scholar]
Falico D.A., López J.A., Antoniazzi C.E. and Beltzer A.H., 2012. Variación interpoblacional y ontogenética en la dieta de la rana llorona Physalaemus albonotatus (Anura: Leiuperidae). Rev. Mex. Biodivers., 83, 1187–1193. [Google Scholar]
Frost D.R., 2015. Amphibian species of the world, American Museum of Natural History, New York, Accessed online 23 February 2015, http://research.amnh.org/herpetology/amphibia/. [Google Scholar]
Gómez N., Donato J.C., Giorgi A., Guasch H., Mateo P. and Sabater S., 2009. La biota de los ríos: los microorganismos autótrofos. In: Elosegi A. and Sabater S. (eds.), Conceptos y técnicas en ecología fluvial. Fundación BBVA, España, 219–242. [Google Scholar]
Gosner K., 1960. A simplified table for stading anuran embryos and larvae with notes on identification. Herpetologica, 16, 183–190. [Google Scholar]
Guiry M.D. and Guiry G.M., 2014. AlgaeBase, World-wide electronic publication, National University of Ireland, Galway, Accessed online 20 March 2014, http://www.algaebase.org. [Google Scholar]
Hill R.H., Herlihy A.T., Kaufmann P.R., Stevenson R.J., McCormick F.H. and Johnson C.R., 2000. Use of periphyton assemblage data as an index of biotic integrity. J. N. Am. Benthol. Soc., 19, 50–67. [CrossRef] [Google Scholar]
Holomuzki J.R., Feminella J.W. and Power M.E., 2010. Biotic interactions in freshwater benthic habitats. J. N. Am. Benthol. Soc., 29, 220–244. [CrossRef] [Google Scholar]
IUCN, 2014. Conservation International, and NatureServe. An analysis of amphibians on the 2008 IUCN red list, Accessed online 6 July 2014, http://www.iucnredlist.org/amphibians. [Google Scholar]
Jüttner I., Rothfritz H. and Ormerod S.J., 1996. Diatoms as indicators of river quality in the Nepalese Middle Hills with consideration of the effects of habitat specific sampling. Freshwater Biol., 36, 475–486. [CrossRef] [Google Scholar]
Komárek J. and Hauer T., 2013. CyanoDR.cz – On-line database of cyanobacterial genera, Word-wide electronic publication, Univ. of South Bohemia & Inst. of Botany AS CR, Accessed online 16 March 2014, http://www.cyanodR.cz. [Google Scholar]
Kupferberg S., 1997. Facilitation of periphyton production by tadpole grazing: functional differences between species. Freshwater Biol., 37, 427–439. [CrossRef] [Google Scholar]
Lajmanovich R.C., 1997. Alimentación de larvas de anuros en ambientes temporales del sistema del Río Paraná, Argentina. Doñana Acta Vertebrata, Sevilla., 24, 191–202. [Google Scholar]
Lajmanovich R.C., 2000. Interpretación ecológica de una comunidad larvaria de anfibios anuros. Interciencia., 25, 71–79. [Google Scholar]
Lajmanovich R.C. and Fernández V.C., 1995. Alimentación de larvas de Bufo arenarum Hensel, 1867 (Amphibia, Bufonidae) en ambientes del Río Paraná. Bol. Mus. Nac. Hist. Nat. Chile., 45, 7–18. [Google Scholar]
Lajmanovich R.C., Peltzer P., Junges C.M., Attademo A., Sanchez L.C. and Bassó A., 2010. Activity levels of B-esterases in the tadpoles of 11 species of frogs in the middle Paraná river flood plain: implication for ecological risk assessment of soybean crops. Ecotoxicol. Environ. Saf., 73, 1517–1524. [CrossRef] [PubMed] [Google Scholar]
Magurran A., 1987. Ecological Diversity and its Measurements, EEUU: Vedrá, Princeton, Nueva Jersey. [Google Scholar]
Mallory M.A. and Richardson J.S., 2005. Complex interactions of light, nutrients and consumer density in a stream periphyton-grazer (tailed frog tadpoles) system. J. Anim. Ecol., 74, 1020–1028. [CrossRef] [Google Scholar]
McDiarmid R.W. and Altig R., 1999. Tadpoles: the Biology of Anuran Larvae, University of Chicago Press, Chicago, EEUU. [Google Scholar]
Oggero A.J. and Arana M.D., 2012. Inventario de las plantas vasculares del sur de la zona serrana de Córdoba, Argentina. Hoehnea, 39, 171–199. [CrossRef] [Google Scholar]
Palermo M.A., 1985. Anfibios y Reptiles fauna Argentina, Centro editor de América Latina S.A. [Google Scholar]
Passy S.I., 2007. Diatom ecological guilds display distinct and predictable behaviour a long nutrient and disturbance gradients in running waters. Aquat. Bot., 86, 171–178. [Google Scholar]
Passy S.I. and Larson C.A., 2011. Succession in stream biofilms is an environmentally driven gradient of stress tolerance. Microb. Ecol., 62, 414–424. [Google Scholar]
Pavignano I., 1990. Niche overlap in tadpole populations of Pelobates fuscus insubricus and Hyla arborea at a pond in north western Italy. Boll. Zool., 57, 83–87. [CrossRef] [Google Scholar]
Peltzer P.M., Attademo A.M., Lajmanovich R.C., Junges C.M., Beltzer A.H. and Sanchez L.C., 2010. Trophic dynamics of three sympatric anuran species in a soybean agroecosystem from Santa Fé Province, Argentina. Herpetological J., 20, 261–269. [Google Scholar]
Pianka E.R., 1973. The structure of lizard communities. Annu. Rev. Ecol. Syst., 4, 53–74. [CrossRef] [Google Scholar]
Ramírez C.A.M. and Plata Díaz Y., 2008. Diatomeas perifíticas en diferentes tramos de dos sistemas lóticos de alta montaña (páramo de Santurban, norte de Santander, Colombia) y su relación con las variables ambientales. Acta Biol. Colomb., 13, 199–216. [Google Scholar]
Rimet F. and Bouchez A., 2011. Use of diatom life-forms and ecological guilds to assess pesticide contamination in rivers: Lotic mesocosm approaches. Ecol. Indic., 11, 489–499. [Google Scholar]
Rossa Feres D.C., Jim J. and Gonçalves Fonseca M., 2004. Diets of tadpoles from a temporary pond in southeastern Brazil (Amphibia, Anura). Rev. Bras. Zool., 21, 745–754. [CrossRef] [Google Scholar]
Shannon C. and Weaver W., 1949. The Mathematical Theory of Communications, EEUU, Universidad de Illinois, Urbana, Illinois. [Google Scholar]
Spaulding S.A., Lubinski D.J. and Potapova M., 2010. Diatoms of the United States, Accessed online 15 March 2014, http://westerndiatoms.colorado.edu. [Google Scholar]
Villafañe V.E. and Reid F.M.H., 1995. Métodos de microscopía para la cuantificación del fitoplancton. In: Alveal K., Ferrario M.E., Oliveira E.C. and Sar E. (eds.), Manual de Métodos Ficológicos, Universidad de Concepción, Concepción, Chile, 169–185. [Google Scholar]
Whiles M.R., Hall R.O. Jr., Dodds W.K., Verburg P., Huryn A.D., Pringle C.M., Lips K.R., Kilham S.S., Colón Gaud C., Rugenski A. T., Peterson S. and Connelly S., 2013. Disease-driven amphibian declines alter ecosystem processes in a tropical stream. Ecosystems, 16, 146–157. [CrossRef] [Google Scholar]
Yucra H.A. and Tapia P.M., 2008. El uso de microalgas como bioindicadoras de polución orgánica en Brisas de Oquendo, Callao, Perú. Biologist (Lima), 6, 41–47. [Google Scholar]

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